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Proceedings Paper

More exact modeling of COIL laser performance
Author(s): Shouxian Li; Xiaojian Shu; Yanyi Du; Hua Su; Yan Li; Zhen Yu
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Paper Abstract

The chemical oxygen-iodine laser (COIL) is the shortest wavelength and high-power chemical laser demonstrated. To model the complete COIL lasing interaction, a three-dimensional formulation of the fluid dynamics, species continuity and radiation transport equations is necessary. The computational effort to calculate the flow field over the entire nozzle bank with a grid fine enough to resolve the injection holes is so large as to preclude doing the calculation. The approach to modeling chemical lasers then has been to reduce the complexity of the model to correspond to the available computational capability, adding details as computing power increased. The modeling of lasing in COIL is proposed, which is coupling with the effects induced by transverse injection of secondary gases, non-equilibrium chemical reactions, nozzle tail flow and boundary layer. The coupled steady solutions of the fluid dynamics and optics in a COIL complex three dimensional cavity flow field are obtained following the proposal. The modeling results show that these effects have some influence on the lasing properties. A feasible methodology and a theoretical tool are offered to predict the beam quality for the large scale COIL devices.

Paper Details

Date Published: 9 May 2012
PDF: 7 pages
Proc. SPIE 8429, Optical Modelling and Design II, 842928 (9 May 2012); doi: 10.1117/12.945959
Show Author Affiliations
Shouxian Li, Institute of Applied Physics and Computational Mathematics (China)
Xiaojian Shu, Institute of Applied Physics and Computational Mathematics (China)
Yanyi Du, Institute of Applied Physics and Computational Mathematics (China)
Hua Su, Institute of Applied Physics and Computational Mathematics (China)
Yan Li, Institute of Applied Physics and Computational Mathematics (China)
Zhen Yu, Institute of Applied Physics and Computational Mathematics (China)


Published in SPIE Proceedings Vol. 8429:
Optical Modelling and Design II
Frank Wyrowski; John T. Sheridan; Jani Tervo; Youri Meuret, Editor(s)

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